MST-Department of Chemistry

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    Hydrogeochemical Analysis and Modeling of Groundwater in South Kinangop, Nyandarua County, Kenya
    (Kenyatta University, 2023-04) Chege, Robert Macharia
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    Effects of processing on nutritional and anti-nutritional content of selected edible insects
    (Kenyatta University, 2024) Gachihi Anne Wanjiru
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    Probing Optimal Blends of Pozzolans to Develop Supplementary Cementing Material within Busia County, Kenya
    (Kenyatta University, 2024-04) Okumu, Mary Assumptor
    Usage of pozzolanic materials in cement production has increased in the recent past years. This is because of the high expense of material, high energy requirement and high emission of green-house gases accompanied with manufacture of Ordinary Portland Cement (OPC). Utilization of pozzolanic material is advantageous because it utilizes local agricultural waste materials. This work focused on the use of natural pozzolans within Busia County, that is; broken bricks (BB), rice husks ash (RHA), clay and bagasse ash (BA), to make Pozzolana Cement (PC). These materials contain active Silica and Alumina necessary for a pozzolanic reaction to take place. BA was obtained as a by-product of controlled burning of Bagasse and limestone in a kiln. The lime obtained in this process was slaked to get calcium hydroxide. RHA was produced by burning rice husks at temperatures of 700 - 900°C. Using different ratio, we prepared RBC, BBC and RBBC samples. RBC comprised of RHA, BA and clay. BBC was made of BB, BA and Clay. RBBC comprised of RHA, BA, ground BB and Clays. The binder was made by mixing each Pozzolana ash with lime at different intervals. Mortar was prepared and tested for physical cement tests. Chemical composition tests demonstrated that the Pozzolans studied met pozzolanicity standards for use in supplementary cement production, with a total percentage of Iron(iii) Oxide (Fe2O3), Alumina (Al2O3) and Silica (SiO2) being greater than 70%. SiO2 had the highest percentage. The levels of MgO were less than 2.8% which comply with ASTM C (618) specifications. The electrical conductivity test showed that RHA had the highest rate of decrease in the electrical conductivity by 77% followed by BB 64%, Clay 56% and least was BA 26%. RHA had the highest pozzolanicity value and BA had the least though all of them had great change in electrical conductivity an indication that they are active pozzolans. In addition, optimal Pozzolana: Lime ratio was 2:1, and the best blend of the pozzolana ashes was RBC comprising of RHA, BB and Clay which gave a 28 days compressive strength of 2.88N/mm2 cured in air. The optimal blend obtained, for instance RBC falls under cement type CS ii as classified by BS EN 998-1; Classification For Hardened Rendering and Plastering Mortar. The others; BBC and RBBC fall under cement type CS i. The optimal Pozzolan: Lime binder had 677 minutes final setting time with 139 minutes initial setting time demonstrating that the binder takes a prolonged duration reaching peak hydration temperature comparing with Lime Pozzolana Cement. It implies that compared to PPC cements hydaration, the binder hydration is very low. The study provides an alternative method for making cement which is ecofriendly, of low cost and uses locally available materials in Kenya. It also has positive input on solving waste disposal problem which is of great environmental and health concerns.
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    Occurrence of Ivermectin Residue in Cow Milk after Subcutaneous Treatment and Ticks Susceptibility to Acaricides in Nyandarua County, Kenya
    (Kenyatta University, 2024-09) Njau, Zipporah Wangui
    Kenya's dairy farming has grown to meet the country's high milk demand. However, parasitic infestation, more so ticks greatly hinders production in this industry. To improve production, veterinary drugs (VDs) have been used for therapeutic and prophylactic purposes to increase production. Frequently used VDs in dairy cows include beta-agonists, anthelmintics, antibiotics, and steroid hormones. The primary chemical control methods for ticks are associated with food safety, high costs, and the emergence of resistance. There has been a great concern about the use of Ivermectin (IVM), an antiparasitic drug that is effectively used against ecto- and endoparasites in livestock. IVM accumulates and persists in animal tissues, hence restricted for use after calving of animals whose milk is meant for human consumption. Despite reports of ivermectin residues used for tick control in regions where dairy production is highly practiced. There is limited information on the presence of ivermectin residues in cow milk in Kenya. Therefore, it was important to conduct an analysis on cow milk in Nyandarua County, Kenya, to evaluate the presence of IVM residues and to ascertain whether ticks were susceptible to acaricides. One hundred and forty-nine (149) milk samples were obtained by purposeful sampling. Twenty-four (24) samples were collected post-treatment from days 0.5 to 57. Tick samples were also collected before treatment. Milk samples were analyzed using quick, easy, cheap, effective, rugged, and safe (QuEChERS), a multi-residue dispersive solid-phase extraction method coupled with Liquid Chromatography with tandem mass spectrometry (LC-MS-MS). For qualitative analysis, a retention time between 8.782 and 8.858 (X̅= 8.362±0.002) minutes allowed the identification of the m/z 897.5 as the precursor ion and 3 product ions m/z; 897.5 > 329, 897.5 > 240, and 897.5 > 183. The method performance demonstrated a linearity of r=0.998 and 0.993 for solvent and matrix-matched calibration curves, respectively as well as a precision of 0.081 and 10.419 on retention time and recovery, respectively. The percentage recoveries for blank samples spiked with 10 ng/ml ranged from 74.977 % to 101.435 % with LOD=2.5 ng/ml and LOQ=10 ng/ml, all within satisfactory limits. The IVM was detected in milk from day 0.5 to 17 with the highest mean concentration recorded on day 2 (60.90±0.98ng/ml) post treatment. Residue was detected in 55.84 % (n = 77) and 29.87 % (n=48) of samples taken from farms and markets, respectively. Residue levels in raw, boiled, and diluted samples indicated no significant difference in residue concentrations between raw and boiled milk samples since fcalc (0.011) < f crit (4.196), while two-factor analysis indicated fcal (11.510) > f crit (2.4837) because of depletion of IVM with time. Although diluting raw samples once and twice reduced residue concentration since fcal (16.446) > fcrit (4.196), and fcal (67.240) > fcrit (4.196) respectively, there was no significant difference observed between single and double diluted samples since fcal (1.671) < fcrit (2.424). Amitraz, chlorpyrifos, cypermethrin, and a mixture of (chlorpyrifos: cypermethrin) were widely used for control of ticks in this region. R. appendiculatus recorded resistance of between 6% and 45% to all tested acaricides, showing susceptibility. B. decoloratus showed 45%, 85%, 50% and 64% resistance for combined treatment, chlorpyrifos, amitraz, and cypermethrin, respectively. It was demonstrated that IVM residues persisted for 17 days in milk, and neither boiling nor dilution degraded it, and the two methods therefore may not be considered a safety precaution against consuming IVM-contaminated milk. Additionally, there was evidence of emerging resistance to cypermethrin and amitraz. Besides, the efficacy of these acaricides can be preserved with better management, ultimately resulting in the suppression of cattle ticks.
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    Sustainable Water Solutions: Evaluating Water Practices and Watermelon Rind-Mediated Ag/TiO2 Nanocomposite Modified Solar Disinfection Efficacy in Obunga Slum, Kisumu County
    (Kenyatta University, 2024-11) Gathiru, Marylyn Mugure
    Approximately 2 billion people worldwide lack access to safe drinking water, leading to 4 billion reported waterborne diarrheal diseases annually. The situation in Obunga slum, located in Kisumu County, with its poor sanitation standards and lack of safe water, highlights the urgent need for a sustainable scientific water treatment solution. Solar disinfection (SODIS) of water, a point-of-use water treatment method that utilizes ultraviolet (UV) radiation and the thermal effects of solar radiation to kill pathogens, is a potential solution. However, its efficiency is influenced by weather conditions. The incorporation of a visible light active photocatalyst has been proposed to enhance its efficiency. This visible light active photocatalyst was synthesized using a green synthesis method, using Citrullus lanatus (watermelon) rind extract (WMRE). This research, with its potential to significantly improve water treatment, aimed to evaluate the water and sanitation practices of Obunga slum residents, validate the application of SODIS in the slum, and increase the effectiveness of SODIS by incorporating WMRE-synthesized silver/ titanium dioxide (Ag/TiO2) nanocomposite. The water and sanitation survey was done using structured questionnaires randomly administered to individual household heads; SODIS was performed on common ground sources within Obunga slum; synthesis of Ag/TiO2 nanocomposite followed, and the effectiveness of SODIS modified with Ag/TiO2 nanocomposite was analysed. The green synthesis of Ag/TiO2 nanocomposite was done using WMRE, and the operating conditions were optimized, while the control synthesis was done using sodium borohydride (NaBH4). The Ag/TiO2 nanocomposite powders were coated on 3-4 mm glass beads and incorporated into SODIS, and effectiveness was assessed. The water and sanitation survey revealed that all Obunga slum residents lacked access to improved sanitation facilities, which demands immediate attention and action. Only 34.65% were accessing safe water sources, highlighting the pressing need for improved sanitation. SODIS for the recommended 6 hours resulted in > 99.99% kill rate for E. coli bacteria and only 82.36% kill rate for non-E. coli coliform bacteria, supporting the need to incorporate a visible light-active photocatalyst. Synthesis of Ag/TiO2 using WMRE was optimal at a reaction time of 45 minutes, temperature of 100 ℃, and pH 12 and yielded spherical Ag nanoparticles with an average diameter of 7.48 nm ± 4.06 nm modified on the surface of TiO2 nanoparticles, yielding improved Ag nanoparticles monodispersity. An absorption peak displayed the visible light activity of WMRE synthesized Ag/TiO2 at 425 nm and was comparable to the control's. SODIS modified with Ag/TiO2 nanocomposite resulted in a > 99.99% E. coli and coliform bacteria kill rate statistically similar to the > 99.98% kill rate achieved when treatment was performed without modification, indicating no improved effectiveness upon modification. Ag/TiO2 nanocomposite is a widely studied and utilized anti-microbial agent; this lack of enhanced efficiency was attributed to an interaction error between the glass beads and contaminated water. Despite the lack of significant improvement in SODIS, the assessment of the water and sanitation standards of Obunga slum and the successful synthesis of visible light active Ag/TiO2 nanocomposite using WMRE provide hope for the future of water treatment.
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    Physico-Chemical and Biological Properties of Water along Mutonga River in Eastern Kenya
    (Kenyatta University, 2024-11) Kiambi, Lenah Kagendo
    Levels of chemical, biological and physical parameters provide information on quality of water. Human activities together with natural processes affect the level of water parameters. River Mutonga is a trans-boundary river traversing tea, irrigation and semi arid regions as well as quarry sites. These activities may lead to introduction of pollutants that may change the levels of water parameters. Water from this river is used for household and irrigation activities and also by animals. This study’s aim was to investigate the levels of parameters in water and sediment samples collected along the river in the dry and wet seasons. The levels of pH, Electrical conductivity (EC) turbidity and temperature were measured using corresponding portable meters. Levels of Total dissolved solids (TDS) and Total suspended solids (TSS) were determined using standard procedures by APHA. Levels of metals were investigated using AAS spectrometry, while nitrates and phosphates were measured using UV-VIS procedures. The results were statistically analyzed using Kruskal-Wallis and ANOVA tests to determine significant differences in parameters by sites and seasons. In water, mean ranges of parameters in the two seasons were: pH: 5.67±0.00 - 7.74±0.16, Temperature: 13.50±0.10 - 26.60±0.10, EC: 0.13±0.06 - 93.50±0.10, Turbidity: 14.89±2.18 - 1000±0.67, TSS: 38.83±3.21 - 100.33±17.77, TDS: 29.33±33.33 - 444.00±287.52, Pb: 0.00 - 0.28±0.02. Cd ranged from 0.00 - 0.003±0.00, Fe: 0.27±0.02 - 7.65±0.13, Mn: 0.00 - 2.22±0.06, NO3 - : 0.49±0.00 - 4.89±0.06, PO4 3- : 0.24±0.00 - 3.83±0.00. In sediments ranges were Pb: 13.82±5.67 - 32.33±11.02, Cd 0.00 - 0.816±13.38 while Fe ranged from 9.12.58±32.08 - 46770.83±938.19. Mn ranged from 249.92 ±15.25 - 816.16025±13.38, NO3 - :1.95±0.00 - 4.99±0.01 while PO4 3- ranged from 0.22±0.00 - 0.816±13.38. Total and fecal coliform ranges were 41.53 - 467.33 cfu and 7.86 - 150.019 cfu respectively. There are significant differences in levels of physical parameters between seasons and among sites except TSS. The chemical parameters in water and sediments vary significantly among sites except lead in sediments and all vary between seasons apart from phosphates in water and nitrates in sediments. Biological parameters differ significantly between seasons and among sites. Levels of turbidity, TSS, lead, iron and coliform bacteria are above WHO permissible limits. The high levels suggest that the river water is polluted.
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    Synthesis of Carbon Dioxide and Amine Modified Biomass - Hydrogel for Improved Water Retention in Agricultural Soils
    (Kenyatta University, 2024-03) Njoroge, Kelvin Kaminja
    Increasingly emission of greenhouse gases especially carbon dioxide that contribute to global warming is a serious concern worldwide. Attempts to capture carbon dioxide from the environment from post-combustion industries have been proposed such as use of alkylamines. This is because amines have a higher affinity of carbon dioxide. However, they have a challenge of offensive odour that is not comfortable in industrial environment. Aqueous alkanolamines are also known to be corrosive to material within the industrial setup. To overcome such challenges this study proposed the use of amines anchored on solid substrates to serve as an absorbent of carbon dioxide. Its interaction with carbon dioxide produced a carbamate that futher cross-linked the amine modified material that was found to have high antibacterial properties. Thus, the material was capable of being applied in the field for extended duration. Each step of the modification process which was done using synthetic (Ethyldiamine) and amines from bio-sources (silver cyprinid -omena) was confirmed using Fourier transform infra-red spectroscopy FTIR analysis. In this study the main focus was to modify amine from bio sources and use it as soil modifier in agricultural farms. Amine modified biomass interact with carbon dioxide from the air to from carbamates that interacts with water and adsorbs it to its surface increasing its volume and reduces when the water is desorbed and the volume variation helps to aerate the soil. The modified material was applied in well prepared plot within the university for the growth of maize (zea may) and arrowroots (Rastrineobola argentea) during the dry season. The study found that modified material enhanced the growth of vegetation as 1.0 kg of that material contributed to an average height of maize of 268.25 cm as well as arrow roots to rapidly bloom providing a plant with a leaf length of dimension of 68.45 cm within the first month of growth. Also, 0.4g of the modified material was capable of enabling (one) maize plant to produce 1.055 kg of dry grains upon maturity. The analysis confirmed significant increase of the height, number of leaves, leaf length and yields of the plants with the increase in the concentration of modified biomass. This resulted from the available amount of water in the structure of modified biomass making the absorbed water available around the plant roots, by increasing the capability of soil to hold much water. The modified biomass acquired more than 200% of the swelling capacity compared to the unmodified biomass. Microbial analysis confirmed that the modification of the material provided sufficient antimicrobial activity to cover the duration of the plant’s growth. The amount of carbon dioxide absorbed by the amine modified biomass was directly proportional to the mass used. It was observed that a sample of 100g of the modified biomass absorbed a maximum of 489.1 cm3 of the total volume of the prepared carbon dioxide gas. The pH of the modified material remained between 6.60 and 7.40 even after addition of mineral acids such as hydrochloric acid. This implies that the modified biomass is not significantly affected by the pH variation and therefore does not affect the acidity or the alkalinity of the soil when applied. The capability of the modified biomass to retain water in the soil for a longer period will enhance growth of vegetation in areas with inadequate rainfall and increase food production in Kenya. Thus, the study found that the modified biomass contributed positively to the growth and yield of the respective plants by improving soil properties which enhances root propagation.
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    Assessment of Heavy Metals in Lipsticks and Facial Powders in Nairobi City County, Kenya
    (Kenyatta University, 2024-04) Magui, Agiza Shillah
    The desire to be more attractive by many people has increased demand for cosmetic products over the last few decades around the world. Today, the use of facial cosmetics has become routine body care for millions of women around the world and in Kenya as well. Facial cosmetics are common in all classes of society from the lower class through the middle class to the upper class. The demand for these products continues to rise even though issues about their safety are yet to be properly addressed. Some of these cosmetics products have higher levels of heavy metals than the allowed level tolerable by the body. These metals include lead, cadmium, nickel, chromium, and many others. Permissible levels of lead by WHO is 10 ppm while those of Cd, Ni, and Cr are 0.3 ppm, 200 ppm, and 50 ppm respectively. Permissible levels by KEBS for Pb, Cd, Ni, and Cr are 2.0 ppm, 0.1 ppm, 200 ppm, and 50 ppm respectively. High levels of lead cause skin problems, and cancer among others. Cadmium, nickel, and chromium also have negative health effects such as causing cancer, respiratory diseases, and damage to several human organs. It is based on this background that this study was conducted to find out the presence and concentration of some of the heavy metals in facial cosmetics particularly in lipsticks and face powders. Heavy metals that were studied are cadmium, lead, nickel, and chromium. Lipsticks and face powders were obtained from supermarkets and shops within Nairobi city in three batches A, B, and C. This study adopted an experimental research design where the atomic absorption spectroscopy technique (AAS) was employed in assessing levels of lead, cadmium, chromium, and nickel in sampled brands of lipsticks and face powders in Nairobi City, Kenya. Data obtained was analyzed by one-way ANOVA at a 95% confidence level using SPSS version 23 for Windows. Significant differences were taken at p<0.05. Lead levels in lipsticks ranged between 0.0057 to 0.0082 ppm while those in face powders ranged between 0.0013 to 0.0066 ppm. The mean concentrations of lead in batches A, B, and C of lipsticks and face powder were all statistically significant. The concentration of cadmium in lipsticks was below the level of detection while in face powders the levels ranged from 0.0009 to 0.0048 ppm. The mean levels of cadmium in batches A, B, and C of face powders were not statistically significant. The concentration of chromium in lipsticks was below the level of detection. The level of chromium in face powders ranged from 0.0010 to 0.0029 ppm. These mean levels were not statistically significant. The levels of nickel in lipsticks ranged from 0.0006 to 0.0031 while in face powders, it ranged from 0.0041 to 0.0217 ppm. The mean levels of nickel in lipsticks were statistically significant. Levels of Pb, Cd, Cr, and Ni in brands A, B, and C of lipsticks were significantly different. Levels of Pb, Cd, Cr, and Ni in brands B and C of face powder were also significantly different while the levels in brand A of face powders were not statistically significant. The levels of lead, nickel, cadmium, and chromium in both lipsticks and face powders in the brands analyzed were lower than the maximum allowed level set by both WHO and KEBS, an indication that the lipsticks and face powders are potentially safe for use. However, the significant differences that were noted between some samples pose a risk of combined and continuous usage. There is therefore need to indicate levels of heavy metals on labels of lipsticks and face powders by manufacturers to enable users to make informed choices of these products.
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    Physico-Chemical Parameters, Selected Heavy Metals and Nutrients in Water, Fish and Sediments from Lake Turkana, Turkana County, Kenya
    (Kenyatta University, 2024-06) Munene, Paul Murimi
    The degradation of aquatic ecosystems by ever-increasing pollutants from anthropogenic activities aggravates health problems, safe water and food scarcity globally. Lake Turkana is an important resource for water, food and recreation in Turkana County, Kenya. However, wastes from urban areas, residential areas, transportation and agriculture could alter physico-chemical parameters, heavy metal and nutrient levels in its water, fish and sediments. This study determined physico chemical parameters, selected heavy metals and nutrients in water, fish and sediments from Lake Turkana, Turkana County, Kenya. Water physico-chemical quality parameters: temperature, pH, electrical conductivity (EC), dissolved oxygen (DO), salinity, total dissolved solids (TDS) and oxidation-reduction potential (ORP) levels using YSI Pro 1030 Multiparameter electrode were determined. The study also analyzed lead, cadmium and chromium in water, Oreochromis niloticus and sediments using Flame Atomic Absorption Spectroscopy (iCE3300 AA System). Similarly, the study investigated nitrates and phosphates in water using visible spectrophotometer (Vis 130 Spectrophotometer). Water and sediments from Napasinyang’ River Mouth, Impressa Beach, Long’ech Beach, Lobu Beach and Turkwel/Kerio River Mouth were sampled and analyzed for lead, cadmium and chromium. Additionally, flesh and liver samples from Oreochromis niloticus in the lake were analyzed. The mean analyte levels were compared across the sampling sites using ANOVA and also with WHO and USEPA standards as appropriate. Heavy metal levels were also compared between fish and water and between water and sediments using student’s T-test. The results indicated physico-chemical parameters of the lake water as follows: temperature (28.24±0.96 to 28.86±0.38°C), pH (9.04±0.21 to 9.46±0.06), electrical conductivity (281.57±0.41 to 289.46±3.95 Ωcm-1 ), dissolved oxygen (6.3±0.79 to 7.04±0.05 mg/L), salinity (1.67±0.00 to 1.70±0.01 ppt), TDS (2093.4±0.39 to 2135.8±4.86 mg/L) and ORP (-54.22±0.12 to 588.14±0.51 mV). The results also showed lead (0.11±0.01 to 0.12±0.00 mg/L), cadmium (0.00±0.00 to 0.03±0.00 mg/L) and chromium (0.01±0.00 to 0.03±0.01 mg/L). The water nutrient levels were: nitrates (5.52±0.31 to 10.04±1.82 mg/L) and phosphates (0.47±0.06 to 0.72±0.15 mg/L). The levels of studied heavy metals in Oreochromis niloticus’s flesh and liver were: lead (0.57±0.08 and 3.34±1.26 mg/Kg), cadmium (0.02±0.00 and 0.32±0.15 mg/Kg) and chromium (0.12±0.01 and 0.51±0.18 mg/Kg). The results of sediment heavy metal analysis were: lead (0.56±0.11 to 1.01±0.03 mg/Kg), cadmium (0.02±0.00 to 0.24±0.10 mg/Kg) and chromium (0.11±0.03 to 0.2±0.05 mg/Kg). The pH and TDS in Lake Turkana’s water exceeded the WHO standards of 6.5-8.5 and 600.0 mg/L respectively. The water lead levels exceeded WHO standard of 0.01 mg/L. Water cadmium levels surpassed WHO standard of 0.003 mg/L in Impressa Beach and Long’ech Beach. The Lake Turkana’s water nitrate levels complied with WHO standard of 50.0 mg/L. The phosphate levels were beyond USEPA standard of 0.024 mg/L. The levels of lead in the Oreochromis niloticus’s flesh and liver exceeded WHO limits of 0.5 mg/Kg and were considerably loftier (p < 0.05) than in the water column. Furthermore, the levels of lead, cadmium and chromium in Lake Turkana’s sediments complied with USEPA standards of <40.0, <6.0 and <25.0 mg/Kg respectively. However, the lead, cadmium and chromium levels in sediments were appreciably higher (p < 0.05) than in the overlying water. The study did not consider seasons, time, tides, other fish organs and species. The study recommends that water for human use be treated for pH, TDS, lead, cadmium and phosphates. Detoxification of heavy metals in Oreochromis niloticus to be done. The sediments to be protected from accumulating lead, cadmium and chromium beyond USEPA standards.
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    Hydrogeochemical Analysis and Modeling of Groundwater in South Kinangop, Nyandarua County, Kenya
    (Kenyatta University, 2023-04) Macharia, Chege Robert; G. Kibe Macharia; Paul Njihia Gichuhi
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    Bacterial Contamination of Water Used in the Household for Domestic Purposes in Mombasa County, Kenya
    (Kenyatta University, 2023-11) Abdallah Bakari, Bibi; Juddy Mwaura; Shadrack Yonge
    It is essential to determine the microbial content of water since it is essential to sustain human life. Unsafe drinking water and inadequate sanitation account for 4% of all elobal disabilities. Due to the water scarcity experienced in developing countries, people forced to rely on water sources of unknown quality. The United Nations has classified Kenya a country which frequently faces water scarcity. Approximately 56% of its citizens are able to access safe drinking water, with up to 50% of the reported illnesses being waterborne diseases. In Mombasa County, only 24% of the residents have access to safe drinking water. An acute water shortage makes most people adopt alternative water sources whose quality is doubtful. An average of 24% of Kisauni, Nyali and Mvita residents use unimproved water sources. The study's objective was to determine the bacterial quality of 55 water samples, where 35 water samples and 20 water samples collected in the household (HH) storage containers were either from borehole water (case) or other sources (controls), respectively. The research also determined the relationship between bacterial quality and diarrhoeal. The association between the type of water sources and diarrhoeal cases reported was determined. Three hundred and eighteen HHs for the cases and one hundred and sixty four HHs for controls were interviewed to determine risk factors that affect water quality at the HH level. Total coliform, faccal coliforms, Heterotrophic Plate Count (HPC), Salmonella and Shigella were isolated. The APHA standards methods were adopted to analyse water and a structured questionnaire was used 1o collect data at the HH. The study design adopted was analytical descriptive cross sectional study. Stratified sampling and random sampling methods were used to identify HHs which were interviewed in case and controls respectively Total coliforms from the two groups had a combined mean of £1039.98 CFU, t =0.000. Faecal coliforms (FC) had a combined mean of +634.74 CFU, t= 0.0006. The results showed significant difference in TC and FC in the two groups. HPC had combined means of +4519.66. 1=0.0891. Boreholes and other sources of water were contaminated with Salmonella at 34.3% and 20%, respectively. None of the water samples collected had Shigella. The study showed a significant relationship between the microbial quality and diarrheal cases for the two groups (t=0.93, df= 53, and 1=0.006). It was also found that there was no relationship between the diarrheal reported diarrheal cases and the type of water consumed in the houschold, t= 0.076. Risk factors associated with water quality were water treatment, other water sources. hand-washing with soap, water storage period, cleaning of containers, income and the number of under-fives in households. Borehole stored water at the HH was found to be unsafe for human consumption. Improving water quality is essential to reduce cases of diarhhoea. Type of was consumed at the HH cannot be associated with diahhoea cases reported in the HH. Interventions that help to improve water quality by targeting the community, like safe drinking water storage and appropriate handling at the HHs need to be strengthened. Water sanitation and Hygiene activities targeting the HH need 1o be intensified. Water sampling at the HH needs to be initiated.
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    Geoplolimer Filters Derived from Geopolimers and activated Carbon for the removal of lead2 and Copper 2 in acquois Solution
    (Kenyatta University, 2023-11) Mwaura Dominic Munyu, Dominic Munyu; Harun Mbuvi and Francis maingi
    ABSTRACT Heavy metals pose serious environmental and health effects in the society since they are toxic and non-biodegradable. Removing aqueous heavy metals from solution especially wastewater has become an area of study in the recent past. Various methods like ion exchange, reverse osmosis, coagulation, and adsorption among others have been put forth in the removal of heavy metal ions. There is little information in the literature on the use of geopolymer filters in adsorption. This study focused on the removal of heavy metal ions of Pb(II), and Cu(II) from an aqueous medium using geopolymer filters fabricated from geopolymer and activated carbon. Geopolymers were used for the adsorption of the heavy metal ions, while activated was to increase porosity in the filter. Geopolymers are easily synthesized using locally available materials, are easy to use, and are environmentally friendly. Common clay was used as a source of alumina, and silica which are important ingredients of geopolymerization, and sugarcane bagasse ash was to provide extra silica. The activated carbon that was used in this study was derived from saw dust. The raw materials for the geopolymerization process and activated carbon process were sourced locally. Characterization of the geopolymer and activated carbon was done using XRF, XRD, and FT-IR.XRF identified the mineral composition of the raw materials, geopolymer, and activated carbon. FT-IR was used to find out the functional groups in both the geopolymer Al-O, Si-O, and activated carbon. XRD was used to identify that both the geopolymer and activated carbon were amorphous broad peaks between 20° 34° in 2-theta hence adsorption of heavy metal ions would occur and, carbon would have good porosity. Adsorption application of the geopolymer filter was done using an aqueous medium while varying geopolymer: activated carbon ratio where a 2:1 ratio was used, filter thickness of 4 cm was used for 50ml solution, pH the optimum range was 4-6.5 for both metal ions, and initial metal ion concentration; adsorption was above 85% for both metal ions when the concentration range was 15-150mg/L, above this concentrations, the adsorption efficiency reduced but not below 50%. The experimental data obtained were treated using Freundlich and Langmuir adsorption isotherm models to understand if the adsorption sites were homogenous or heterogeneous. Based on the correction coefficient (R2), Freudliuch isotherm was best fitted to predict the adsorption capacity of the geopolymer adsorbent for both Pb(II) metal ions, and Cu(II) metal ions with the heterogenous index being between 0-1. This illustrates that the geopolymer filter has a multilayer adsorption sites on its surface. From the adsorption data, it is clear that geopolymers and activated carbon can be used to fabricate water filters that can adsorb heavy metal ions and maintain good porosity. The filters are potential adsorbents for heavy metals from water treatment.
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    Physico-Chemical Parameters, Levels of Selected Heavy Metals and Nutrients during Wet and Dry Seasons Along River Ewaso Narok, Laikipia County, Kenya
    (Kenyatta University, 2023-10) Maisa, Thadius Nyamweya; Alphonse Wanyonyi; Silvanus Shisia
    River water pollution is a growing problem especially in developing countries where population growth and urbanization are never adequately checked. Effluents from chemical industries and dumping of toxic solid wastes from urban settlements find their way into rivers. Run-offs from agricultural fields downstream and other anthropogenic activities result in heavy pollution of rivers. Downstream most urban areas live huge communities of humans and animals who rely on water from these rivers for survival. There are reports of environmental degradation, water related discases in both animals and humans all of which are cvidence of water pollution. The objective of this study was to assess the extent of water pollution by determining the levels of selected heavy metals namely: Pb, Cu, Mn & Cd and selected nutrients (NO3 and PO3~) along river Ewaso Narok, Laikipia County, Kenya, during wet and dry seasons. Sampling was done along the river to obtain samples of water, sediment and soil in both seasons, and each sample was analyzed for the concentrations of each parameter along with determination of selected Physico-chemical parameters of water including pH, T, Ce, TDS and TSS. Soil and sediment samples were digested using nitric and hydrochloric acid. Samples were then analyzed for heavy metals using FAAS and for nutrients using UV-vis Spectrophotometry. Data was analyzed using ANOVA and t-tests. The results obtained were as follows: The mean pH varied downstream across the two scasons; 7.46 1.02 wet, 8.56 + 0.51 dry, with a lower pH in the wet season, an indication of presence of heavy metals. Temperature was generally lower than the set limit by WASREB (20-35°C) in both seasons; 13.91 + 1.96°C wet, 15.57 £ 2.13°C dry. The same trend was observed with electrical conductivity Ce; 153+ 198.5pS/em wet, 164 + 206.23pS/cm dry, and TDS; 113.6 = 133.5mg/L wet, 122.8 + 144.5mg/L dry. Noticeably, T, Ce and TDS were generally higher in the dry season albeit falling below set limits by WHO. Ce, just like TDS, is a factor of temperature. TSS was slightly above set limit by WASREB in the wet season; 30.4 + 17.36mg/L wet, 224 = 14.74mg/L dry. Pb concentration was higher in the wet season; 0.0529 0.0830mg/L, being significantly higher than set limit by WHO (p<0.05). The same trend was noted with Cu; 2.6057 + 3.2705mg/L in the wet season The wet season is associated with run-offs and heavy agricultural activities. Mn was not detected in the wet season. Manganese Carbonate, a fertilizer, is insoluble in water thus not easily detectable. However, in the dry season a mean of 0.06524 = 0.03666mg/L was recorded falling within the limit set by WHO. Cd was higher in the wet season (0.0051 £ 0.0044mg/1) than in the dry season (0.0002 = 0.0006mg/l), but was within WHO limit (0.003mg/1). The concentration of nitrate was significantly higher in the wet season; 1 10.3122 + 62.1294mg/L, than in the dry season (25.5787 £ 1.4487mg/l) being significantly higher (p<0.05) than standard WHO value in both seasons. Similarly the concentration of phosphate was significantly higher than WHO set limit in both seasons: wet season; 0.1068 + 0.07249mg/L, dry season; 0.1376 = 0.0957mg/L. This is because of wash-off of agricultural residues during downpour. These results signify clevated levels of heavy metals and nutrients in R. Ewaso Narok, especially in the wet scason, potentially from urbanization, agriculture and other anthropogenic activities along the river, which may lead to health and environmental implications. NEMA, WRA, KFS and other relevant bodies need to combine effort to control human activities along the river which will lead to availability of clean drinking water for residents in order to protect the river and lives.
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    Determination of the Physicochemical Properties of Honey from Suba Region, Homa Bay County-Kenya
    (kenyatta university, 2023) Ondogo, Linet Kwamboka; Daniel Okanga' Oyoo; Robert Motari Bichang'a
    Honey is a naturally sweet substance produced by honeybees from plant flowers' nectar and honeydew. Examining the physicochemical properties of honey is crucial for assessing its quality. The primary economic activities in Homa Bay County Suba Region, Suba South Sub-County, Gwassi North, and Gwassi South divisions are subsistence farming and fishing. The divisions of Gwassi North and Gwassi South have lately embraced commercial apiculture as a new economic enterprise. The physical and chemical characteristics of this honey were examined to assess its quality, determining whether it meets both local and global honey standards. To enable farmers to process and increase the value of their honey, plans are being made to build a facility that would process honey. This study aimed at evaluating the physicochemical properties of honey to determine its compliance with international honey standards. The famous bee, Apis mellifera, was the only kind of honeybee studied. The Gwassi North and Gwassi South divisions' four regions, Nyandiwa (Western), Tonga (Northern), Magunga (Eastern), and Nyancha (Central), were the sampled regions of the study's forty honey samples. To achieve its objectives, the study used an experimental technique. The Codex Alimentarius Commission's defined methods were used to analyze each property. A pH meter, UV-visible spectrophotometer, and HPLC instruments were used to measure the pH, free acidity, HMF content, proline content, fructose content, glucose content, and sucrose content of the honey, respectively. Utilizing an Abbe refractometer, a conductivity meter, an oven, and density bottles respectively, the following parameters were assessed: moisture content, refractive index, electrical conductivity, ash content, and density. The levels of mineral elements were assessed using atomic absorption spectroscopy (AAS) for sodium (Na) and potassium (K), while calcium (Ca), zinc (Zn), magnesium (Mg), manganese (Mn), and iron (Fe) were measured using a flame photometer. An analysis of variance was used in the statistical analysis, which was performed using SPSS version 21. The investigation's results showed that the physical and chemical properties had the following mean values for the honey sample: pH = 4.01± 0.03, free acidity = 35.83±0.45 mEq/kg, HMF = 19.95±1.76 mg/kg, proline = 629.77±9.80 mg/kg, sum of glucose and fructose = 68.37±0.51%, moisture content = 21.53±0.13%, refractive index = 1.4745±0.0083, ash content = 0.55±0.01, electrical conductivity = 0.54±0.01 and density was 1.41±0.02g/cm3. According to the mineral study of the honey samples, manganese was the least common mineral and potassium was the most common. The concentration increased in the order Mn < Zn < Fe < Ca < mg < Na
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    Phytochemical and mosquito larvicidal studies of stachytarpheta urticifolia (sims)
    (Kenyatta university, 2022-10) Agola, Faith Caroline; Alphonse W. Wafula; Ram Manohar
    Malaria is one of the most common and severe tropical diseases on the planet, transmitted by the Anopheles gambiae mosquito. Malaria affects more than 300 million people each year, according to the World Health Organization. Each year, these diseases are estimated to kill between 1.5 and 3 million people worldwide, with nearly 90 percent of all illnesses affecting pregnant women and children under the age of five. Chemotherapy, vaccine development, and vector control are currently used to prevent and control malaria. Vector management has been hailed as a critical tool in the fight against malaria transmission in light of the plasmodium species' increasing resistance to currently available antimalarial medications. Controlling mosquitoes during their larval stage is an additional effort made by humanity in an attempt to combat malaria. The use of natural compounds derived from plants to control the insect pests is a non-toxic and environmentally friendly strategy. Research has shown that compounds from the Vebenaceae family have been identified and shown to have larvicidal activity. The phytochemical and mosquito larvicidal properties of crude extracts and fractions derived from Stacytarpheta urticifolia, a member of the Vebenaceae family, were investigated in this work. The dry powdered stems of S. urticifolia were extracted using hexane, DCM, EtOAc and methanol for a total of 48 hours, with each extraction utilizing a different solvent. Phytochemical screening showed presence of terpenoids, alkaloids, tannins, steroids and flavonoids in the plant. For bioassay investigations, different concentrations of extracts were used. The larvicidal activity of the polar crude extracts was much greater than that of the non-polar extracts; MeOH LC50=0.08, Hexane LC50=10.59. The cytotoxicity tests also revealed that the EtOAc and methanol extracts were the more toxic to brine shrimp eggs; MeOH LC50= 6.48x10-8, EtOAc LC50=0.0015. Column chromatography and repeated PTLC on the bioactive crude extracts from Hexane, DCM, EtOAc and MeOH gave a white amorphous solid (EtOAc:MeOH, 7:3). Upon use of 1H NMR, 13C NMR, DEPT, HMBC and HSQC led to SUS 1 an oleanane tritepene, 1,2,3,4,4a,5,6a,7,8a,9,10,11,12,12a,13,13a,14,14a,14b-icosahydro-2,3,11,12,13apentahydroxy-4,4,6a,12,14b-pentamethyl-10-oxobenzo[α]tetracene-12a-carboxilic acid. A white amorphous solid (EtOAc:MeOH, 7:3). Another oleanane tritepenoid with a sugar moiety, 8a-acetyloctadecahydro-6b,8,12-tihydroxy-4,4,6a,11,12b,14b-hexamethyl-2(tetrahydroxo-3, 4, 5trihydroxy-6- (hydroxymethyl) - 2H- pyran - 2-yl oxy) picen - 6 (6aH, 6bH ,14Bh)-one, SUS 3 was also obtained as white crystalline solid (EtOAc:MeOH, 7:3). In addition, two common plant sterols were also isolated from Chloroform: EtOAc (1:1); 3β-stigmasterol, SUS 2 as white powder and 3β-sitosterol, SUS 4 as colourless needlike crystals. The results from this study provides a basis for further research in malaria control.
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    Cooking Effects on Folate and Ascorbic Acid Levels in Selected African Indigenous Vegetables from Githurai Market, Nairobi City County, Kenya
    (Kenyatta University, 2022) Mumbi, Janety; Ruth Wanjau; Jane Murungi
    Folate (vitamin B9,5-methyltetrahydrofolate) and ascorbic acid (AA) (vitamin C), play a key role in human health and wellbeing. It is greatly established that AA is beneficial in preventing scurvy while folate helps in the prevention of neural tube defects and congenital malformations. The main sources of these vitamins are fruits and vegetables and especially green leafy vegetables, including the African indigenous vegetables (AIVs). However, these vegetables are consumed after cooking which leads to loss of the vitamins through oxidation, thermal degradation and leaching. Main cooking methods in Kenya include boiling in unspecified amounts of water and discarding the boiling effluents leading to high nutrient loss. There is also the addition of additives such as bicarbonate of soda, lye (traditional salt), milk, cream, sesame and groundnuts paste whose effect on nutrient levels especially folate and AA levels in AIVs are yet to be explained, thus the need for investigation. The study aimed at determining the effect of different cooking methods on the retention of AA and folate in cowpea [Vigna Unguiculata (L.) Walp], saget (spider plant) [Cleome gynandra (L.)] and pumpkin leaves (Cucurbita moschata) as affected by different cooking methods. The vegetables were bought from Githurai market then sorted, prepared and cleaned using tap water then rinsed with distilled water on arrival in the laboratory. Both raw and cooked samples were analyzed. A portion of 100.000 g of the edible portion of vegetable samples including leaves and young shoots, was used in each of the cooking methods. During extraction, mortar and pestle were used to grind 10.000 g of sample then mixed with 50 mL of extraction solution containing; 20 mM KHCO3 (for vitamin B9 extraction) and 3 % Metaphosphoric acid, MPA, and 8 % acetic acid (for vitamin C extraction). The mixture was then filtered and put in a 100 mL volumetric flask and topped to the mark using the extraction solution. All samples were extracted in triplicates. Folate and AA were determined using high-pressure liquid chromatography with ultra-UV-visible detection, after extraction of the vitamins from raw and cooked samples. Analysis of Variance (ANOVA) was used to determine the difference in nutrient retention by various cooking methods. Significance was imputed at p<0.05. The AA and folate levels in raw vegetables ranged from 9.36±0.12 mg/100g to 60.28±0.32 mg/100 and 35.83±0.23 μg/100g to 258.08±0.58 μg/100g respectively. The cooked samples of the vegetables contained folate levels ranging from 15.59±0.19 μg/100g to 258.08±0.58 μg/100g. The AA mean concentration levels in cooked vegetables were found to be ranging from 1.36±0.02 mg/100g to 39.53±0.40 mg/100g. Therefore, it was determined that cooking the vegetable significantly reduced both folate and AA concentration compared to the raw vegetable samples, p<0.05. Steaming vegetables resulted in significantly higher retention of vitamins compared to other cooking methods. Significant losses of the vitamins were found in vegetables boiled in lye. Therefore, this study recommended that AIVs should be cooked by steaming which leads to higher retention of both folates and AA. The addition of lye and sodium bicarbonate should be avoided during the cooking of AIVs since they cause significant losses of vitamins. The results will be availed to relevant authorities and also used to sensitize vegetable consumers and cooks.
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    Adsorption of Selected Heavy Metals Using Modified Pennisetum Purpureum Plant Stalks: A Case Study of River Ruiru, Kiambu County, Kenya
    (Kenyatta University, 2022) Murage, Daniel; Eric Masika; Alphonse Wanyonyi
    Water pollution is a global problem affecting the welfare of humanity. Availability of clean water is a fundamental prerequisite to public health safety and the survival of the human race as well as animals. However, pollution of river water by heavy metal ions deposition is a grave ecological problem especially in developing countries. Previous research work on analysis of fish, soil sediments and water samples obtained from Nairobi and Ruiru river confirmed the presence of heavy metals. These metal ions which include lead, chromium, and iron are mainly from industrial effluents discharged into the rivers. Presence of the heavy metals in the water, pose a serious health risk particularly to rural populations which rely majorly on the river water for domestic purposes. Several methods for elimination of the heavy metal pollutants from river waters have been previously employed. However, most of these methods have proved to be expensive and cumbersome, hence not sustainable. Simpler methods are, therefore, needed for better sustainability. This research explored the potential of modified Pennisetum purpureum plant adsorbent in eradication of lead (II), manganese (II) and chromium (VI) ions from Ruiru river water by adsorption process. Sampling was done at three different locations along the river, that is, Ruiru Town, Juja Farm and Fourteen Falls. The mean concentration of heavy metal ions was determined before and after the adsorption process in triplicates using Atomic Absorption Spectroscopy (AAS). Effect of changes in pH on adsorption was investigated by conducting adsorption at pH of 5, 7 and 9. Data was organized in excel worksheets before it was transferred into SPSS software for analysis. The results show high chromium and lead pollution of the Ruiru river. Average concentrations of chromium and lead were 1.495±0.09 ppm and 1.610±0.1 ppm respectively. Average Manganese levels were 0.05±0.01 ppm which was within the permissible level (0.5 ppm). Modification of the adsorbent surface improved its adsorption capacity. The modified adsorbent achieved greater % adsorption in all the three metals. Increase in the pH of adsorption from 5 to 9 had a reducing effect on the percent adsorption of metal ions from water samples with significant reductions in % adsorption being recorded for lead and manganese ions but not for chromium ions. These results show the potential of the Pennisetum purpureum plant in the purification and detoxification of river water by adsorption. This adsorbent presents a more readily alternative to many current adsorbents and adsorption methods in use. However further research is needed to ascertain the best set of conditions as well as the most suitable modification treatment for maximum adsorption.